Authors

Document Type

Peer-Reviewed Article

Publication Date

2018

Abstract

Introduction: The ability to self-manage and problem solve effectively is an important component of managing chronic conditions. For individuals with limb loss, problem solving the fit of their prosthetic socket is crucial to being able to functionally ambulate with a prosthetic leg. This study evaluates and compares two innovative problem-solving tools designed to empower prosthesis wearers in self-managing their socket fit.

Materials and Methods: Fourteen paper-based problem-solving decision trees were integrated into a mobile health app displayed on an iPad. Thirty prosthesis wearers performed a total of six trials split between the two conditions (paper-based and mobile app). Technical effectiveness, efficiency, and acceptability were assessed during and after participants used each tool to problem solve reallife scenarios. Technical effectiveness was a measure of the number of errors, whereas efficiency was a measure of the amount of time needed to complete each trial. Acceptability was measured using Likert-like questionnaires and semistructured interviews.

Conclusions: The mobile app demonstrated significantly better outcomes as compared with the paper-based decision trees. Both the mobile app and paper-based tool had high acceptability; however, the mobile app was found to be significantly easier to use and less confusing than the paper-based version of the decision trees. Further study is required to assess the efficacy of the decision trees to manage a prosthetic fit issue in an individual who is currently having difficult managing a prosthetic socket fit issue. (J Prosthet Orthot. 2018;00:00–00)